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Fundamentals of Au(111) Surface Dynamics: Coarsening of Two-Dimensional Au Islands

Peter M. Spurgeon, King C. Lai, Yong Han, James W. Evans, P. A. Thiel

2020The Journal of Physical Chemistry C19 citationsDOIOpen Access PDF

Abstract

Au(111) surfaces play a central role in many applications, yet studies of fundamental aspects of their dynamics are limited. Thus, using scanning tunneling microscopy (STM) at 300 K, we analyze the coarsening of first-layer 2D Au islands directly on the Au(111) substrate and also of second-layer 2D Au islands. Specifically, we monitor the decay of Au first-layer islands with areas of about 100–500 nm<sup>2</sup> in the vicinity of larger islands or extended step edges over a period of approximately 40 h, the relevant time scale for this process. Experimentally observed behavior is captured by analytical theory for terrace-diffusion-limited decay incorporating DFT results for the Au terrace diffusion barrier and the adatom formation energy.Lastly, experimental observations of second-layer island decay are also compared with appropriate analytical theory and stochastic simulations, thereby determining the effective Ehrlich–Schwoebel barrier for Au on Au(111).

Topics & Concepts

Scanning tunneling microscopeTerrace (agriculture)Quantum tunnellingDiffusionSubstrate (aquarium)Surface diffusionLayer (electronics)Materials scienceCondensed matter physicsDiffusion barrierChemical physicsNanotechnologyMolecular physicsPhysicsChemistryGeologyPhysical chemistryAdsorptionThermodynamicsGeographyArchaeologyOceanographySurface and Thin Film Phenomenananoparticles nucleation surface interactionsTheoretical and Computational Physics
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